Cannula transfer or cannulation is a set of

air-free technique Air-free techniques refer to a range of manipulations in the chemistry laboratory for the handling of compounds that are air-sensitive. These techniques prevent the compounds from reacting with components of air, usually water and oxygen; less ...

s used with a

Schlenk line The Schlenk line (also vacuum gas manifold) is a commonly used chemistry apparatus developed by Wilhelm Schlenk. It consists of a dual manifold with several ports. One manifold is connected to a source of purified inert gas, while the other is ...

, in transferring liquid or solution samples between reaction vessels via

cannulae A cannula (; Latin meaning 'little reed'; plural or ) is a tube that can be inserted into the body, often for the delivery or removal of fluid or for the gathering of samples. In simple terms, a cannula can surround the inner or outer surfaces ...

, avoiding atmospheric contamination. While the syringes are not the same as cannulae, the techniques remain relevant. Two methods of cannula transfer are popular: vacuum, and pressure. Both utilize differences in pressures between two vessels to push the fluid through. Often, the main difficulty encountered is slow transfer due to the high

viscosity The viscosity of a fluid is a measure of its resistance to deformation at a given rate. For liquids, it corresponds to the informal concept of "thickness": for example, syrup has a higher viscosity than water. Viscosity quantifies the inte ...

of the fluid.

Equipment

Septa

Septa (singular:

septum In biology, a septum (Latin for ''something that encloses''; plural septa) is a wall, dividing a cavity or structure into smaller ones. A cavity or structure divided in this way may be referred to as septate. Examples Human anatomy * Interatri ...

) are rubber stoppers which seal flasks or bottles. They give an airtight seal, preventing the ingress of the atmosphere, but are able to be pierced by sharp needles or cannulae.

Cannula

Cannulae are hollow flexible tubes. Their bore is usually 16-22

gauge Gauge ( or ) may refer to: Measurement * Gauge (instrument), any of a variety of measuring instruments * Gauge (firearms) * Wire gauge, a measure of the size of a wire ** American wire gauge, a common measure of nonferrous wire diameter, es ...

thick. They are commonly made of

stainless steel Stainless steel is an alloy of iron that is resistant to rusting and corrosion. It contains at least 11% chromium and may contain elements such as carbon, other nonmetals and metals to obtain other desired properties. Stainless steel's corros ...

PTFE Polytetrafluoroethylene (PTFE) is a synthetic fluoropolymer of tetrafluoroethylene that has numerous applications. It is one of the best-known and widely applied PFAS. The commonly known brand name of PTFE-based composition is Teflon by Chemour ...

for their chemical resistance. Stainless steel cannulae are usually 2–3 feet long, due to their relative inflexibility, while PTFE cannulae can be much shorter. The ends are usually sharp and non-coring, allowing them to easily pierce a rubber

, without being clogged by rubber particles. Flat tips tend to provide more complete transfer of fluids. Stainless steel cannulae tend to collapse when cut with wire cutters. They are best cut using

pipecutter A pipecutter is a type of tool used by plumbers to cut pipe (material), pipe. Besides producing a clean cut, the tool is often a faster, cleaner, and more convenient way of cutting pipe than using a hacksaw, although this depends on the metal of ...

s of appropriate size. Other workers recommend deeply scoring the cannula with a triangular file, then sharply snapping the weakened section.

Needles and syringes

Wide-bore needles of similar gauge are often used. Unlike hypodermic-type needles sometimes used in the chemistry laboratory, these needles tend to be reused due to cost. Long needles may be flexible enough to be bent in U-shapes; shorter needles often are not.

Polypropylene Polypropylene (PP), also known as polypropene, is a thermoplastic polymer used in a wide variety of applications. It is produced via chain-growth polymerization from the monomer propylene. Polypropylene belongs to the group of polyolefins and ...

syringes used for medical applications are least expensive. While the material is relatively solvent-resistant, although they are designed primarily for aqueous solutions, some degradation or leaching by the contents may occur. In particular, the black rubber seal may swell and cause the plunger to seize. All-glass gas-tight syringes have better solvent resistance, although they tend to leak more than plastic syringes. Greases used on the barrel may leach into the contents. Glass syringes with a

teflon Polytetrafluoroethylene (PTFE) is a synthetic fluoropolymer of tetrafluoroethylene that has numerous applications. It is one of the best-known and widely applied PFAS. The commonly known brand name of PTFE-based composition is Teflon by Chemou ...

seal at the plunger are available as well, but they are more expensive. They tend to be used for microsyringes (usually containing less than 100 μL). Luer fittings are preferred, as needles are locked in even under higher pressure, e.g. when transferring viscous liquids.

Cleaning and storage

Cannulae and needles should be quickly flushed out with an appropriate solvent to prevent undetectable corrosion damage to the stainless steel. Since they are usually used for air-sensitive work, they are commonly kept in a hot oven, to reduce the adsorption of water molecules. Before use, they are usually subjected to three vacuum-refill cycles to remove any traces of air.

Cannula transfer methods

This technique has been described with illustrated detail.

Vacuum based

The two ends of the cannula are inserted through the septa covering donating and receiving flasks. The cannula extends below the surface of the fluid to be transferred. A vacuum is applied to the receiving flask, and the low pressure relative to the donating flask causes the fluid to flow through the cannula. Vacuum transfers risk drawing air into the system, spoiling the air-free environment. Loss of the fluid by evaporation is another problem, although less so where the fluid is a neat liquid, than a solution of known concentration.

Positive pressure

The receiving flask is connected to its own

gas bubbler A gas bubbler is a piece of laboratory glassware which consists of a glass bulb filled with a small amount of fluid — usually mineral or silicone oil, less commonly mercury. The inlet to the bulb is connected to a ground glass joint, wh ...

, while the donating flask is connected to a source of inert gas. By increasing the inert gas pressure, the pressure within the donating flask is raised higher than the receiving flask, and the fluid is forced through the cannula. Pressure transfers can be slow. Inert gas lines are usually vented out of a gas bubbler placed in-line to prevent overpressure. The vents need to be isolated by capping the bubbler outlet, or stopping the egress of inert gas with a stopcock or pinch clamp, to ensure sufficient pressure to complete the transfer. The use of a

mercury bubbler A gas bubbler is a piece of laboratory glassware which consists of a glass bulb filled with a small amount of fluid — usually mineral or silicone oil, less commonly mercury. The inlet to the bulb is connected to a ground glass joint, while ...

instead of one filled with oil used to be popular, but is out of favor due to the difficulty in dealing with mercury spills.

Syphoning

By carefully filling the cannula fully with either above techniques, then allowing the pressures within the vessels to equalize, a syphon may be set up. This arrangement allows the slow addition of a fluid to a reaction vessel; the rate of addition may be controlled by adjusting the relative height of the donor vessel.

Handling pyrophoric material

While handling

pyrophoric A substance is pyrophoric (from grc-gre, πυροφόρος, , 'fire-bearing') if it ignites spontaneously in air at or below (for gases) or within 5 minutes after coming into contact with air (for liquids and solids). Examples are organolith ...

material (e.g.

tert-butyllithium ''tert''-Butyllithium is a chemical compound with the formula (CH3)3CLi. As an organolithium compound, it has applications in organic synthesis since it is a strong base, capable of deprotonating many carbon molecules, including benzene. ''ter ...

and

trimethylaluminum Trimethylaluminium is one of the simplest examples of an organoaluminium compound. Despite its name it has the formula Al2( CH3)6 (abbreviated as Al2Me6 or TMA), as it exists as a dimer. This colorless liquid is pyrophoric. It is an industriall ...

), traces of the compound at the tip of the needle or cannula may ignite, and cause a clog. Some workers prefer to contain the tip of the needle or cannula in a short glass tube flushed with an inert gas, and sealed via two septa. Instead of exposing the needle tip to the air, it is withdrawn into the inerted tube. Where desired, it may be inserted into a flask via two septa (one on the tube, one on the flask). Used this way, needle tip fires are eliminated, reducing the obvious hazards. Also, there is a reduced tendency for the needle tip to clog due to the reaction of traces of the reagent with air to give salts.

Filtration

Filtration is most easily accomplished using a syringe filter. PTFE filters tend to be most chemically resistant; nylon filters are less so. Using a cannula, a filter stick Air-free technique#Gallery may be used. A filter stick is a short length of glass tubing sealed on one end with a septum, and sealed on the other with filter paper, or a sintered glass frit. For larger volumes, it may be preferable to connect the donor and receiving flasks via ground glass joints to a sintered glass filter tube.

Gallery

Image:Air sensitive cannula -intra-bleed valve.png , Cannula: intra-bleed valve Image:Air sensitive cannula -extra-bleed valve.png , Cannula: extra-bleed valve Image:Air sensitive cannula - no bleed valve.png , Cannula: (Simple) no bleed valve Image:air sensitive cannula - two manifold system.png , Cannula: two manifold system Image:Air sensitive cannula - syringe valve 1.png , Cannula: syringe valve Air-sensitive cannulas: 1: Pressure in (gas in) 2: Pressure out (oil bubbler orange) 3: Higher flask with transfer liquid (yellow) to transfer 4: Lower receiving flask/transferred liquid (yellow) 5: Liquid transfer cannula 6: Septum (orange) on transfer flask 7: Septum (orange) on receiving flask 8: Pressure-control regulator/stopcock 9: Tubing/ gas-line (not shown for clarity, arrows show connectivity) 10: Gas cannula 11: 2-way syringe stopcock 12: Gas-tight syringe 13: Gas/pressure removed from flask 4 14: Gas/pressure added to flask 3 O = Open stopcock; X = Closed stopcock; black-arrow = Gas flow direction, orange arrow = Liquid flow direction